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A chlorophyll a fluorescence-based Lemna minor bioassay to monitor microbial degradation of nanomolar to micromolar concentrations of linuron.

(2002) ENVIRONMENTAL MICROBIOLOGY. 4(6). p.327-337
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Chicago
Hulsen, Kris, V MINNE, P LOOTENS, P VANDECASTEELE, and Monica Höfte. 2002. “A Chlorophyll a Fluorescence-based Lemna Minor Bioassay to Monitor Microbial Degradation of Nanomolar to Micromolar Concentrations of Linuron.” Environmental Microbiology 4 (6): 327–337.
APA
Hulsen, K., MINNE, V., LOOTENS, P., VANDECASTEELE, P., & Höfte, M. (2002). A chlorophyll a fluorescence-based Lemna minor bioassay to monitor microbial degradation of nanomolar to micromolar concentrations of linuron. ENVIRONMENTAL MICROBIOLOGY, 4(6), 327–337.
Vancouver
1.
Hulsen K, MINNE V, LOOTENS P, VANDECASTEELE P, Höfte M. A chlorophyll a fluorescence-based Lemna minor bioassay to monitor microbial degradation of nanomolar to micromolar concentrations of linuron. ENVIRONMENTAL MICROBIOLOGY. 2002;4(6):327–37.
MLA
Hulsen, Kris, V MINNE, P LOOTENS, et al. “A Chlorophyll a Fluorescence-based Lemna Minor Bioassay to Monitor Microbial Degradation of Nanomolar to Micromolar Concentrations of Linuron.” ENVIRONMENTAL MICROBIOLOGY 4.6 (2002): 327–337. Print.
@article{157135,
  author       = {Hulsen, Kris and MINNE, V and LOOTENS, P and VANDECASTEELE, P and H{\"o}fte, Monica},
  issn         = {1462-2912},
  journal      = {ENVIRONMENTAL MICROBIOLOGY},
  language     = {eng},
  number       = {6},
  pages        = {327--337},
  title        = {A chlorophyll a fluorescence-based Lemna minor bioassay to monitor microbial degradation of nanomolar to micromolar concentrations of linuron.},
  volume       = {4},
  year         = {2002},
}

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